Figure 1 shows how the National Grid connects a power station to consumers - AQA - GCSE Physics - Question 1 - 2023 - Paper 1

To calculate the resistance of the cable, we use the formula for power loss:

$P = I^2 R$

Given the power loss of $1.60 imes 10^9 ext{ W}$ and the current of $2000 ext{ A}$:

$1.60 imes 10^9 = (2000)^2 imes R$

Solving for R:

$R = \frac{1.60 imes 10^9}{2000^2}$

$R = \frac{1.60 imes 10^9}{4000000} = 400 \text{ Ω}$

Thus, the resistance of the cable is 400 Ω.

The equation that links efficiency, total energy input, and useful energy output is:

$\text{efficiency} = \frac{\text{useful energy output}}{\text{total energy input}}$

To find the useful energy output, we can apply the efficiency equation:

Given the total energy input of 34.2 GJ and efficiency of 0.992:

$\text{useful energy output} = 0.992 \times 34.2$

Calculating this gives:

$\text{useful energy output} = 33.9 \text{ GJ}$

Thus, the useful energy output from the power station to consumers is approximately 33.9 GJ.